Home Assistant ‐ Manual Config - FengtianGu/Sonoff-Tasmota GitHub Wiki
Home Assistant (Hass) is an open-source home automation platform running on Python 3.
Important: The information on this page is related to:
- Sonoff-Tasmota development version 6.3.0.17 (2018-12-13) or later
- Version 6.3.0 will NOT work
- Home Assistant 0.84.2 or later
This page describes configuring Hass and Tasmota without MQTT device discovery, with manual configuration of each device in Hass.
While automatic discovery is the recommended method, an advantage of manually configuring device is the user maintains control of all aspects of the device configuration and usage.
Hass configuration not exposed in the UI is done by editing the file configuration.yaml
which is found in folder .homeassistant
after installation and first start of Hass.
Note: After every change to the configuration file you'll need to restart Hass to make it aware of the changes. This can be done either:
- Through the UI: Configuration -> General -> Server Management -> Restart
- From command line: On a Debian Linux based system, use the command
sudo systemctl restart home-assistant
.
In the examples shown the following Sonoff-Tasmota parameters are set:
-
MQTT_STATUS_OFF
inuser_config.h
=OFF
-
MQTT_STATUS_ON
inuser_config.h
=ON
-
SUB_PREFIX
inuser_config.h
=cmnd
-
PUB_PREFIX
inuser_config.h
=stat
-
PUB_PREFIX2
inuser_config.h
=tele
-
Mqtt
= 1 -
MqttHost
=domus1
-
MqttPort
= 1883 -
Topic
=sonoff
-
PowerRetain
= 0 -
TelePeriod
= 300
- Note: If the power state needs to be persistent across Tasmota reboots set the PowerRetain to 1.
If you are using a localized version (eg. de-DE) be sure to check the correct spelling and cases for the defines:
- 'D_ONLINE' for 'payload_available'
- 'D_OFFLINE' for 'payload_not_available'
- 'D_ON' for 'payload_on'
- 'D_OFF' for 'payload_off'
As Sonoff-Tasmota is MQTT based you will need to configure Home Assistant to connect to an MQTT broker.
Home Assistant comes with an embedded MQTT broker which is easy to set up but you may want to opt for a separate MQTT broker instead for better stability. A popular choice for this is the open-source Eclipse Mosquitto.
To connect Hass to an external MQTT server, use Hass web UI:\
Configuration -> Integrations -> Set up a new Integration -> MQTT\
Note: Make sure to tick the "Enable discovery" option to enable MQTT device discovery.
# Example configuration.yaml entry
mqtt:
password: hello
Default username for the embedded broker is homeassistant
while port defaults to 1883
.
If the MQTT broker or Hass is restarted, or there is a WiFi outage, Tasmota device state may not be synced with Home Assistant.
Use this automation to get all your devices in sync, including power state, immediately after Home Assistant is (re)started.
# Example automations.yaml entry
- alias: "Power state on HA start-up"
trigger:
platform: homeassistant
event: start
action:
- service: mqtt.publish
data:
topic: "cmnd/sonoffs/state"
payload: ""
- service: mqtt.publish
data:
topic: cmnd/sonoffs/POWER
- service: mqtt.publish
data:
topic: cmnd/sonoffs/POWER2
- service: mqtt.publish
data:
topic: cmnd/sonoffs/POWER3
This automation posts to the default "sonoffs" group topic. Each device will send back their status message which contains relay power and light status.
Add a sensor like below in your sensor section for each Tasmota device in one card in an order that makes sense for you. Change the state_topic
and availability_topic
to the unique topic of each device.
# Example configuration.yaml entry
sensor:
- platform: mqtt
name: "S20_Rock"
state_topic: "stat/S20Beta/STATUS2"
value_template: "{{value_json['StatusFWR'].Version }}"
qos: 0
availability_topic: "tele/S20Beta/LWT"
payload_available: "Online"
payload_not_available: "Offline"
Automation to have each device to push out the firmware version on Home Assistant reboot. Tip: The user can manually trigger this automation without a reboot during upgrades of devices.
# Example automations.yaml entry
- alias: "Sonoff state on HA start-up"
trigger:
platform: homeassistant
event: start
action:
- service: mqtt.publish
data:
topic: "cmnd/sonoffs/STATUS"
payload: "2"
Here is some code that will display the IP address of you newly flashed ESP8266 if you have to change PROJECT name in user_config.h you must also change the script topic has to match it.
The script:
# Example scripts.yaml entry
get_sonoff_ip:
alias: Get Sonoff New IP (sonoff)
sequence:
- data:
topic: cmnd/sonoff/ipaddress
service: mqtt.publish
topic: cmnd/the PROJECT NAME/ipaddress
The sensor:
# Example configuration.yaml entry
sensor:
- platform: mqtt
name: "SonOff IP"
state_topic: 'stat/sonoff/RESULT'
value_template: "{{ value_json.IPAddress1.split(' ')[1].replace('(','').replace(')','') }}"
Put it into a group
# Example groups.yaml entry
sonoff:
name: "Sonoff Tasmota"
control: hidden
entities:
- script.get_sonoff_ip
- sensor.sonoff_ip
Restart HA and plug in your newly flashed ESP8266 device. Click EXECUTE
(in the new group) and the "Sonoff IP" sensor will display the IP address. After finding out the new IP don't forget to change the topic name in "Configure MQTT" in the Configuration Menu.
Display the Wi-Fi signal strength published from each telemetry message (default time is every 300 seconds). Change the two topics below to your Tasmota device name. It may not immediately show on your Home Assistant panel until the next telemetry message is published.
# Example configuration.yaml entry
sensor:
- platform: mqtt
state_topic: "tele/SNF-Washer/STATE"
name: "Washer Signal"
unit_of_measurement: "%"
value_template: "{{value_json['Wifi'].RSSI }}"
availability_topic: "tele/SNF-Washer/LWT"
payload_available: "Online"
payload_not_available: "Offline"
Use the switch.mqtt
component.
Use POWER1, POWER2, etc when you are using a device with more than one relay or if SetOption26 is enabled)
Configure the module, and on the Console run:
SetOption59 1
- This enables sending of tele//STATE on POWER and light related commands
# Example configuration.yaml entry
switch:
- platform: mqtt
name: "Sonoff power"
state_topic: "stat/sonoff/RESULT"
value_template: "{{ value_json.POWER }}"
command_topic: "cmnd/sonoff/POWER"
availability_topic: "tele/sonoff/LWT"
qos: 1
payload_on: "ON"
payload_off: "OFF"
payload_available: "Online"
payload_not_available: "Offline"
retain: false
If you are using your Sonoff to control a light, you may want to use the light.mqtt
component. Replace switch:
with light:
in the above configuration. All other settings remain the same.
Use the sensor.mqtt
component.
A DHT22 Temperature and Humidity sensor connected to a Sonoff TH10 will send in TelePeriod
set intervals the following information to the MQTT broker:
tele/sonoff/SENSOR = {"Time":"2017-02-12T16:11:12", "DHT22":{"Temperature":23.9, "Humidity":34.1}}
To make the information visible in HA add the following lines to the configuration file.
# Example configuration.yaml entry
sensor:
- platform: mqtt
name: "Tele Temperature"
state_topic: "tele/sonoff/SENSOR"
value_template: "{{ value_json['DHT22'].Temperature }}"
unit_of_measurement: "°C"
availability_topic: "tele/sonoff/LWT"
payload_available: "Online"
payload_not_available: "Offline"
- platform: mqtt
name: "Tele Humidity"
state_topic: "tele/sonoff/SENSOR"
value_template: "{{ value_json['DHT22'].Humidity }}"
unit_of_measurement: "%"
availability_topic: "tele/sonoff/LWT"
payload_available: "Online"
payload_not_available: "Offline"
Another means of sensor information retrieval from Sonoff-Tasmota is using the status command Status 10
or cmnd/sonoff/status 10
. This would result in a message like:
stat/sonoff/STATUS10 {"StatusSNS":{"Time":"2017-02-11T18:06:05", "DHT22":{"Temperature":"21.8", "Humidity":"48.0"}}}
The HA configuration would then look like this:
# Example configuration.yaml entry
sensor:
- platform: mqtt
name: "Stat Temperature"
state_topic: "stat/sonoff/STATUS10"
value_template: "{{ value_json.StatusSNS.DHT22.Temperature }}"
unit_of_measurement: "°C"
- platform: mqtt
name: "Stat Humidity"
state_topic: "stat/sonoff/STATUS10"
value_template: "{{ value_json.StatusSNS.DHT22.Humidity }}"
unit_of_measurement: "%"
The Sonoff-Tasmota command could be initiated by a mosquitto mqtt pub command on mosquitto_pub -h localhost -t 'cmnd/sonoff/status' -m '10'
HTU21 and BMP280 sensors connected to sonoff2
send messages like:
tele/sonoff2/SENSOR = {"Time":"2017-02-12T16:16:43", "HTU21":{"Temperature":24.0, "Humidity":34.0}, "BMP280":{"Temperature":24.9, "Pressure":1032.5}}
Where the Pressure information would be made available to HA with
# Example configuration.yaml entry
sensor:
- platform: mqtt
name: "Tele Pressure"
state_topic: "tele/sonoff2/SENSOR"
value_template: "{{ value_json.BMP280.Pressure }}"
unit_of_measurement: "hPa"
A Sonoff Pow device called pow1
will periodically send the following message:
tele/pow1/SENSOR = {"Time":"2018-02-14T21:51:31","ENERGY":{"Total":0.984,"Yesterday":0.000,"Today":0.984,"Period":12,"Power":145,"Factor":0.90,"Voltage":220,"Current":0.731}}
The HA configuration for Energy, Power, Voltage and Current would be:
# Example configuration.yaml entry
sensor:
- platform: mqtt
name: "Energy"
state_topic: "tele/pow1/SENSOR"
value_template: '{{ value_json["ENERGY"]["Today"] }}'
unit_of_measurement: "kWh"
- platform: mqtt
name: "Power"
state_topic: "tele/pow1/SENSOR"
value_template: '{{ value_json["ENERGY"]["Power"] }}'
unit_of_measurement: "W"
- platform: mqtt
name: "Voltage"
state_topic: "tele/pow1/SENSOR"
value_template: '{{ value_json["ENERGY"]["Voltage"] }}'
unit_of_measurement: "V"
- platform: mqtt
name: "Current"
state_topic: "tele/pow1/SENSOR"
value_template: '{{ value_json["ENERGY"]["Current"] }}'
unit_of_measurement: "A"
The manual message retrieved with command Status 8
or cmnd/pow1/status 8
will show:
stat/pow1/STATUS8 = {"StatusPWR":{"Yesterday":0.002, "Today":0.002, "Power":4, "Factor":0.37, "Voltage":227, "Current":0.056}}
The HA configuration for Power Factor would then be:
# Example configuration.yaml entry
sensor:
- platform: mqtt
name: "Power Factor"
state_topic: "stat/pow1/STATUS8"
value_template: "{{ value_json.StatusPWR.Factor }}"
Complete tutorial on a power monitoring plug setup:
Use the light.mqtt
component.
Configure the module, and on the Console run:
SetOption59 1
- This enables sending of tele//STATE on POWER and light related commands
# Example configuration.yaml entry
light:
- platform: mqtt
name: "Light 1"
command_topic: "cmnd/light1/POWER"
state_topic: "tele/light1/STATE"
state_value_template: "{{value_json.POWER}}"
availability_topic: "tele/light1/LWT"
brightness_command_topic: "cmnd/light1/Dimmer"
brightness_state_topic: "tele/light1/STATE"
brightness_scale: 100
on_command_type: "brightness"
brightness_value_template: "{{value_json.Dimmer}}"
payload_on: "ON"
payload_off: "OFF"
payload_available: "Online"
payload_not_available: "Offline"
qos: 1
retain: false
Configure the module, and on the Console run:
SetOption17 1
- This enables decimal colors
SetOption59 1
- This enables sending of tele//STATE on POWER and light related commands
# Example configuration.yaml entry
light:
- platform: mqtt
name: "Light 1"
command_topic: "cmnd/light1/POWER"
state_topic: "tele/light1/STATE"
state_value_template: "{{value_json.POWER}}"
availability_topic: "tele/light1/LWT"
brightness_command_topic: "cmnd/light1/Dimmer"
brightness_state_topic: "tele/light1/STATE"
brightness_scale: 100
on_command_type: "brightness"
brightness_value_template: "{{value_json.Dimmer}}"
rgb_command_topic: "cmnd/light1/Color2"
rgb_state_topic: "tele/light1/STATE"
rgb_value_template: "{{value_json.Color.split(',')[0:3]|join(',')}}"
effect_command_topic: "cmnd/light1/Scheme"
effect_state_topic: "tele/light1/STATE"
effect_value_template: "{{value_json.Scheme}}"
effect_list:
- 0
- 1
- 2
- 3
- 4
payload_on: "ON"
payload_off: "OFF"
payload_available: "Online"
payload_not_available: "Offline"
qos: 1
retain: false
Configure any of the pins of the module as "WS2812B", and on the Console run:
SetOption17 1
- This enables decimal colors\
# Example configuration.yaml entry
light:
- platform: mqtt
name: "Light 1"
command_topic: "cmnd/light1/POWER"
state_topic: "stat/light1/STATE"
state_value_template: "{{value_json.POWER}}"
availability_topic: "tele/light1/LWT"
brightness_command_topic: "cmnd/light1/Dimmer"
brightness_state_topic: "stat/light1/STATE"
brightness_scale: 100
on_command_type: "brightness"
brightness_value_template: "{{value_json.Dimmer}}"
rgb_command_topic: "cmnd/light1/Color2"
rgb_state_topic: "tele/light1/STATE"
rgb_value_template: "{{value_json.Color.split(',')[0:3]|join(',')}}"
effect_command_topic: "cmnd/light1/Scheme"
effect_state_topic: "stat/light1/STATE"
effect_value_template: "{{value_json.Scheme}}"
effect_list:
- 0
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- 10
- 11
- 12
payload_on: "ON"
payload_off: "OFF"
payload_available: "Online"
payload_not_available: "Offline"
qos: 1
retain: false
Configure the module as "34 MagicHome", and on the Console run:
SetOption17 1
- This enables decimal colors
SetOption59 1
- This enables sending of tele//STATE on POWER and light related commands
Configure the module as "18 Generic module", and on the Console run:
SetOption17 1
- This enables decimal colors
SetOption59 1
- This enables sending of tele//STATE on POWER and light related commands
More info how to configure the GPIO Arilux LC02
# Example configuration.yaml entry
light:
- platform: mqtt
name: "Light 1"
command_topic: "cmnd/light1/POWER"
state_topic: "tele/light1/STATE"
state_value_template: "{{value_json.POWER}}"
availability_topic: "tele/light1/LWT"
brightness_command_topic: "cmnd/light1/Dimmer"
brightness_state_topic: "tele/light1/STATE"
brightness_scale: 100
on_command_type: "brightness"
brightness_value_template: "{{value_json.Dimmer}}"
white_value_state_topic: "tele/light1/STATE"
white_value_command_topic: "cmnd/light1/White"
white_value_scale: 100
white_value_template: "{{ value_json.Channel[3] }}"
rgb_command_topic: "cmnd/light1/Color2"
rgb_state_topic: "tele/light1/STATE"
rgb_value_template: "{{value_json.Color.split(',')[0:3]|join(',')}}"
effect_command_topic: "cmnd/light1/Scheme"
effect_state_topic: "tele/light1/STATE"
effect_value_template: "{{value_json.Scheme}}"
effect_list:
- 0
- 1
- 2
- 3
- 4
payload_on: "ON"
payload_off: "OFF"
payload_available: "Online"
payload_not_available: "Offline"
qos: 1
retain: false
Configure the module, and on the Console run:
SetOption17 1
- This enables decimal colors
SetOption59 1
- This enables sending of tele//STATE on POWER and light related commands
You can set the following using the sonoff web interface - Console or by sending it MQTT commands
Fade on (optional, but makes the transitions slower)
Speed 5 (optional, but makes the transitions slower)
# Example configuration.yaml entry
light:
- platform: mqtt
name: "Light 1"
command_topic: "cmnd/light1/POWER"
state_topic: "tele/light1/STATE"
state_value_template: "{{value_json.POWER}}"
availability_topic: "tele/light1/LWT"
brightness_command_topic: "cmnd/light1/Dimmer"
brightness_state_topic: "tele/light1/STATE"
brightness_scale: 100
on_command_type: "brightness"
brightness_value_template: "{{value_json.Dimmer}}"
color_temp_command_topic: "cmnd/light1/CT"
color_temp_state_topic: "tele/light1/STATE"
color_temp_value_template: "{{value_json.CT}}"
rgb_command_topic: "cmnd/light1/Color2"
rgb_state_topic: "tele/light1/STATE"
rgb_value_template: "{{value_json.Color.split(',')[0:3]|join(',')}}"
effect_command_topic: "cmnd/light1/Scheme"
effect_state_topic: "tele/light1/STATE"
effect_value_template: "{{value_json.Scheme}}"
effect_list:
- 0
- 1
- 2
- 3
- 4
payload_on: "ON"
payload_off: "OFF"
payload_available: "Online"
payload_not_available: "Offline"
qos: 1
retain: false
Use the binary_sensor.mqtt
component.
# Example configuration.yaml entry
binary_sensor:
- platform: mqtt
name: "Test RF bridge rfkey 1"
payload_on: "1"
payload_off: "0"
device_class: opening
state_topic: "tele/sonoff_bridge/RESULT"
value_template: '{{ value_json.RfReceived.RfKey }}'
Use the fan.mqtt
component.
From @kbickar in Support for Ifan02 #2839`
Modified by @finity69x2 in Support for Ifan02 #2839`
# Example configuration.yaml entry
fan:
- platform: mqtt
name: "Sonoff Fan"
command_topic: "cmnd/sonoff_fan/FanSpeed"
speed_command_topic: "cmnd/sonoff_fan/FanSpeed"
state_topic: "stat/sonoff_fan/RESULT"
speed_state_topic: "stat/sonoff_fan/RESULT"
#state_value_template: "{% if value_json.FanSpeed == 0 -%}0{%- elif value_json.FanSpeed > 0 -%}4{%- endif %}"
state_value_template: >
{% if value_json.FanSpeed is defined %}
{% if value_json.FanSpeed == 0 -%}0{%- elif value_json.FanSpeed > 0 -%}4{%- endif %}
{% else %}
{% if states.fan.sonoff_fan.state == 'off' -%}0{%- elif states.fan.sonoff_fan.state == 'on' -%}4{%- endif %}
{% endif %}
speed_value_template: "{{ value_json.FanSpeed }}"
availability_topic: tele/sonoff_fan/LWT
payload_off: "0"
payload_on: "4"
payload_low_speed: "1"
payload_medium_speed: "2"
payload_high_speed: "3"
payload_available: Online
payload_not_available: Offline
speeds:
- off
- low
- medium
- high
Combination of configs found in the support thread: Support for Ifan02 #2839 and Home Assistant forum: Sonoff IFan02 (Tasmota) MQTT Fan
# Example configuration.yaml entry
fan:
- platform: mqtt
name: "Pat Ceiling Fan"
state_topic: "stat/ifan02_1/RESULT"
speed_state_topic: "stat/ifan02_1/RESULT"
state_value_template: >
{% if value_json.FanSpeed is defined %}
{% if value_json.FanSpeed == 0 -%}0{%- elif value_json.FanSpeed > 0 -%}2{%- endif %}
{% else %}
{% if states.fan.pat_ceiling_fan.state == 'off' -%}0{%- elif states.fan.pat_ceiling_fan.state == 'on' -%}2{%- endif %}
{% endif %}
speed_value_template: "{{ value_json.FanSpeed }}"
availability_topic: tele/ifan02_1/LWT
payload_available: Online
payload_not_available: Offline
speed_command_topic: "cmnd/ifan02_1/FanSpeed"
payload_low_speed: "1"
payload_medium_speed: "2"
payload_high_speed: "3"
command_topic: "cmnd/ifan02_1/FanSpeed"
payload_off: "0"
payload_on: "2"
qos: 1
retain: false
speeds:
- low
- medium
- high
light:
- platform: mqtt
name: "Pat Ceiling Light"
state_topic: "tele/ifan02_1/STATE"
value_template: "{{ value_json.POWER }}"
command_topic: "cmnd/ifan02_1/POWER"
availability_topic: "tele/ifan02_1/LWT"
qos: 1
payload_on: "ON"
payload_off: "OFF"
payload_available: "Online"
payload_not_available: "Offline"
retain: false
groups.yaml
# Example groups.yaml entry
Pat Ceiling Fan:
- fan.pat_ceiling_fan
- light.pat_ceiling_light
Configure the module as Sonoff S31, and on the Console run:
SetOption4 1
SetOption59 1
# Example configuration.yaml entry
switch:
- platform: mqtt
name: "s31_02 power"
state_topic: "tele/s31_02/STATE"
value_template: "{{ value_json.POWER }}"
command_topic: "cmnd/s31_02/POWER"
availability_topic: "tele/s31_02/LWT"
qos: 1
payload_on: "ON"
payload_off: "OFF"
payload_available: "Online"
payload_not_available: "Offline"
retain: false
sensor:
- platform: mqtt
name: "s31_02 Voltage"
state_topic: "tele/s31_02/SENSOR"
value_template: "{{ value_json['ENERGY'].Voltage }}"
unit_of_measurement: "V"
availability_topic: "tele/s31_02/LWT"
qos: 1
payload_available: "Online"
payload_not_available: "Offline"
- platform: mqtt
name: "s31_02 Current"
state_topic: "tele/s31_02/SENSOR"
value_template: "{{ value_json['ENERGY'].Current | round(2) }}"
unit_of_measurement: "A"
availability_topic: "tele/s31_02/LWT"
qos: 1
payload_available: "Online"
payload_not_available: "Offline"
- platform: mqtt
name: "s31_02 Power"
state_topic: "tele/s31_02/SENSOR"
value_template: "{{ value_json['ENERGY'].Power }}"
unit_of_measurement: "W"
availability_topic: "tele/s31_02/LWT"
qos: 1
payload_available: "Online"
payload_not_available: "Offline"
- platform: mqtt
name: "s31_02 Power Factor"
state_topic: "tele/s31_02/SENSOR"
value_template: "{{ value_json['ENERGY'].Factor }}"
availability_topic: "tele/s31_02/LWT"
qos: 1
payload_available: "Online"
payload_not_available: "Offline"
- platform: mqtt
name: "s31_02 Energy Today"
state_topic: "tele/s31_02/SENSOR"
value_template: "{{ value_json['ENERGY'].Today }}"
unit_of_measurement: "kWh"
availability_topic: "tele/s31_02/LWT"
qos: 1
payload_available: "Online"
payload_not_available: "Offline"
- platform: mqtt
name: "s31_02 Energy Yesterday"
state_topic: "tele/s31_02/SENSOR"
value_template: "{{ value_json['ENERGY'].Yesterday }}"
unit_of_measurement: "kWh"
availability_topic: "tele/s31_02/LWT"
qos: 1
payload_available: "Online"
payload_not_available: "Offline"
- platform: mqtt
name: "s31_02 Energy Total"
state_topic: "tele/s31_02/SENSOR"
value_template: "{{ value_json['ENERGY'].Total }}"
unit_of_measurement: "kWh"
availability_topic: "tele/s31_02/LWT"
qos: 1
payload_available: "Online"
payload_not_available: "Offline"
groups.yaml
Sonoff S31_02:
- switch.s31_02
- sensor.s31_02_voltage
- sensor.s31_02_current
- sensor.s31_02_power
- sensor.s31_02_power_factor
- sensor.s31_02_energy_today
- sensor.s31_02_energy_yesterday
- sensor.s31_02_energy_total
The tasmota counter is volatile (not saved in case or reset/ reboot) due to flash wear. Common use cases are a water meter that works with a pulse. this custom component counter can handle it.
- platform: tasmota_counter
name: HASS_NAME
s topic: TOPIC
counter_id: 1
max_valid_diff: 2000
unit_of_measurement: 'l'
icon: mdi:water-pump
expire_after: 300
value_template: "{{ (4885 + (value))|int }}"